An interdisciplinary team of researchers at the University of California Los Angeles has devised a proof-of-concept that shows it’s possible to capture carbon dioxide emissions and convert them into a concrete alternative that can be 3-D printed—a material the researchers are calling CO2NCRETE.

The April issue of the ACerS Bulletin—which is jam-packed full of great content about additive manufacturing of ceramics and electronics, researchers for hire, and computation and modeling of ceramics—is now available online.

Researchers at the University of Belgrade, Serbia, have developed a graphene-based microphone concept that’s nearly 32 times more sensitive than standard microphones and has ultrasonic reach potential.

Driven by the mission to develop a more practical, lower-cost solution to infrared vision technology, researchers at the Massachusetts Institute of Technology are turning to a trendy material: graphene.

Researchers at National Cheng Kung University in Taiwan have developed a simple, cost-effective approach to produce graphene in a way that they say broadens the material’s potential commercial applications—they’re calling it ‘defective’ graphene.

The time-to-market gap for commercially viable graphene in electronic applications might just have shrunk even more—researchers from the University of Wisconsin-Madison have discovered a new method for growing graphene on germanium that naturally forms nanoribbons with smooth armchair edges.